Avogadro's law
-
Avogadro's law relates the amount and volume of a gas at constant
temperature and pressure. Mathematically:

fracVn = k

k
is a constant unique to the temperature and pressure.

Avogadro's number
-
NA = 6.022×1023
. An avogadro's number of molecules equals
one mole.

Boyle's law
-
A gas law relating pressure and volume for a fixed amount of gas at a
constant temperature. Mathematically:

PV = C

C
is a constant unique to the amount of gas and temperature.

Charles' law
-
A gas law relating volume and temperature for a fixed amount of gas at
constant pressure. Mathematically:

= k

k
is a constant unique to the amount of gas and pressure. Note that
T
must be an absolute temperature(in Kelvins).

Dalton's law
-
The total pressure of a mixture of gases is the sum of the pressures
each constituent gas would exert alone. Mathematically:

Ptot = PA + PB + PC + ƒƒƒ

Gas constant
-
Constant
R
in the ideal gas law. The value of
R
varies
with the units of
P
,
V
,
n
, and
T
. The value of
R
can be
deduced from the following table:

Units

Value of R

0.08206

8.314

8.314

1.987

62.36

Ideal gas law
-
A gas law stating that
PV = nRT
. The two main assumptions of the
law are that the molecules of an ideal gas do not have volume and do
not interact with each other. The ideal gas law is a good
approximation when the pressure is low and the temperature is high.

Isothermal conditions
-
Two or more conditions that share the same temperature. In other
words,
T
is constant.

Kelvin
-
A unit of absolute temperature. Abbreviated with the letter "K."
The Kelvin scale is related to the Celsius scale by
TK = TC + 273.15
. Kelvin should be used for all classical and ideal gas
law calculations.

Manometer
-
A device used to measure the difference in pressure between two gases:

"A" and "B" represent the atmosphere, a vacuum, or a pressurized gas.

Molar mass
-
The mass of one mole of particles. Commonly expressed as g/mol.

Mole
-
One mole contains Avogadro's number (
6.022×1023
) of
particles. For example, one mole of
H2
would contain
6.022×1023H2
molecules. Moles are
abbreviated as "mol."

Mole fraction
-
In a mixture of gases, the ratio that relates the number of moles
of a constituent gas to the total number of moles in the mixture.
Derived using the mole fraction formula.

Partial pressure
-
In a mixture of gases, the pressure exerted by one constituent gas.
The sum of the partial pressures of gases in a mixture is equal to the
total pressure of the mixture.